Transcript — View — Lotus Base

Overview

Field	Value
Gene ID	LotjaGi4g1v0139100
Transcript ID	LotjaGi4g1v0139100.4
Related isoforms 7	LotjaGi4g1v0139100.1 LotjaGi4g1v0139100.2 LotjaGi4g1v0139100.3 LotjaGi4g1v0139100.5 LotjaGi4g1v0139100.6 LotjaGi4g1v0139100.7 LotjaGi4g1v0139100.8
Lotus japonicus genome version	Gifu v1.2
Description	Structural maintenance of chromosomes protein; TAIR: AT5G48600.2 structural maintenance of chromosome 3; Swiss-Prot: sp\|Q9FJL0\|SMC4_ARATH Structural maintenance of chromosomes protein 4; TrEMBL-Plants: tr\|A0A151RK13\|A0A151RK13_CAJCA Structural maintenance of chromosomes protein 4; Found in the gene: LotjaGi4g1v0139100
Working Lj name	n.a.

Genomic sequence (LjG1.1_chr4:20723671..20736819) extracted from Lotus japonicus Gifu genome v1.2.

GCCCGCCGCACCCGACCCAGCTCACGCTCCACCGGCGGCGCGCCCCAGGCTCTTCATCAAGGAGATGGTGATGCGGAACT TCAAGTCCTACGCTGGTGAACAGCGCGTGGGTCCTTTCCATAAGGTTAGGGTTTTCCATTTTCACACTCAGTTGCTTCCA ATTTCACTTGTGAGAACTTGAAAAAACGGTTTTGGTTTCAGAGTTTTTCGGCTGTGGTTGGACCCAATGGGAGCGGGAAG AGTAACGTGATTGACGCAATGCTGTTTGTGTTCGGGAAGCGAGCGAAGCAGGTGTGTGTTCTTGAATGTGCTAAGAACTA ATGAGTGTTTTTAATTTTTAATTTTTTTCTTCTTCTTGTGCTTCTTTCATTTGGAAATTGGTGGTTGCAGATGCGGCTTA ACAAAGTTTCGGAGCTTATCCACAATTCCACCAATCACCAGAATTTGGATAGTGCTGGGGTTTCTGTTCATTTTCAGGAG ATTGTCGATTTGGTAGCTTTTCTTATTAACCTTGTTTTGTTAATTTTTAGATTTTATTACCATTATTATTATTGTTGTTG TTGTTGTTTTTCGTAAGATGAGATGCGAAAGAATGAGGCATAATATAATGCCATTCTATTTGATGTTTTATGATTGTTGT ATTTATCAAAAGTCAAAACTGAAAACCCGGGGCATTATTATTATTATTATTTTAATTTTAATTTCAGTTGGTGTATTTTT ACTAGTAATTCCAAAATGGCACCATTTTCTTGTAAGATGAGATATTTGATATTTGATGACAAAAAGTGGACCCTAACTAT ACACATATTCATTTGCTAAGTTTTATTCAAACTTATTCTATTTTTTTGCTTTTCTTTTGTTTCATCTTTCATGAGCTCGC ATTTAAGTTGAGCTTTATGCCACAGAGACTAAAGAGTTTTCAGTGCTCCTGTTTTATTGCCCTTCTGTTGTTTTCCATCT TTGGTTGAAAAAGAACTAATGTTTCTATGGTTGCAGGATGATGGAACATATGAGGCTGTTCCAGGAAGTGATTTTGTGAT TACAAGGGTGGCTTTACGGGATAACTCCTCTAAGTATTATATTAATGATCGTTCGAGTAACTTCACTGAAGTCACTAAGA AACTGAAAGGGAAAGGTGTTGACCTTGACAATAATAGGTTTCTAATCCTTCAGGTTGGGTATTTATTACATTGTGTTTTT AGTTTTCCGGAAGGCTTTTCCTAGTTAACTCTATTGATGATTGATCTGTTTCACAGGGTGAAGTTGAGCAGATCTCACTT ATGAAGCCAAAAGCTCAAGGACCACATGATGAGGGTTTTCTAGAATATCTGGAGGATATCATTGGGACGAACAAATATGT AGAAAAAATTGATGAATCATTTAAACAGTGAGCACTATCTCCATTTCAATTTAGAAAAACTGCAAACTTTCTCGATCAAC AATACCAAAGCATATATACTTGATGTTGTTGTTGCCTGATTTGTTTTGATTTGATTATATTTATATGTTTCGTATGTTTG GCTTTACTTATTTGTTTCCAAACAGCTGATAATCAAAATCATACTGAGAAAGAAAACCAATTATTCCCTGAAGATTATGG GTTATTTCGGTTTTGATTTGTGGGGGAAATGATTGCTTTAGCCATTTTTCATGCTCTTAGGTAACTTTTGATTATAAGCT GTTTTGAAATCAAAATAAGCTAATTATTAATGCACCCTAAGCAAAAACAAGCACACTCTCACTATTTATTGTATTGTAAC TATTCTTTGATTTCTGCTGCCACCTGTAGGATAATTTACATATTTTTCTAGTGATGCTCCATGTAAGCATTAAGCAACCA CTTGGATTTCAGTTTTAACAGATAATAACTTCTTTTGATTGAAACAAATCTGTTGTTGTTTTAGGTTAGAGTCCCTGAAT GAGAGAAGATCTGGGGTGGTACAAATGGTCAAGCTATCTGAGAAAGAAAGAGACAGCTTGGAGGCATGTATAACTGTGCT TGTATGAACATTTGATTTGATGTTTGAGCAGCCCCTAACAGTTCTTTTGCAACAGGGTGTGAAGAATGAAGCAGAAGCCT ACATGCTTAAAGAGTTGTCTCACTTGAAATGGCAGGAAAAAGCTGCAAAGTTAGCTCTTGATGATACAGGTGGAAAAATG GATGAGTTACAAGTGAATGTTGCTAGCGTAGAAGAAAATCTCAAGGCAGAAAGGTACATTTGAATTTCACTCGGTAGTTT CTGTCTCTCTTTGCGTATGTTAATCTTGCCTTATGATTAACTCAGTGATATCTTATTACAGGGATAAAATTCAAGAAAGT AAACAAGTTCTGAAGGAGCTAGAAACTAAGCACAGCAATTATATGAAAAGACAAGAGGTTTGCATGAAATGGGTTCTGAG TGTTTGACATTATCATTTTGCATGATGACATTGCCGGGCATTTTAGGCTTAATGATAAGCTCAGCAGATAGTAGTCTAAA TATTATTTTTTCTTTATTTTTGCAACAGGAGCTAGATACTGATATGAGGAAGTGTAAAGAAGAATTCAAGGAGTTTGAGA GGCAGGATGTCAAGTATCGGGAAGATTTTAAACACTTAAATCAGAAGATCAAGAAGCTCGAGGATAAAGTTGAAAAGGTA CAGGGAAGGCATGGTTTTTACATCTGAAAGTATCCACGTGTGAGATGCCTTATCCATCCATCTGTTTCTATTTTAGGATT CATCAAAAATTGAAGCTCTTGTAAAAGAGGGTGAAGACTCAACTAATCTGATACCAAAACTTGAGAATAATATTCCAAAA CTGCAAAAATTGTTGCTAGATGAGGAGAAGGTCTTAGAAGAAATCACAGAGAGTTCCAAAGGTGGACCCTTGTCTTTTTT TCATTTTCCAATATATTGGGAATTGCTTTTAGTCAAAATATTGCTTTGCTGTTGTGGTGATGCATCTCTGTATTATGCTT TTTATCATAACCTGATTAAAACTTTTCTGTTCTTACCATACAGAATTAGCTGACTGTCATGGGTTTTAGGTGCTCCAGAT TTAGTAACACCATTATTGTGCTAAATACAAATTAATAGAAAATGATTTTAAACTTAAATATGTATTTGGTCCCTATAATA TAAGAAATGTTTGGTTTGGGTCCCTACGTTATTTTTTTTGGTTTTGGTCCTTAATTTTAATTTTTAGAAAGGCTTAAATA TGTTGGAGGTCCCTCTAAAATAGGGATCTTTTGGTTAAGGCCCCTACAATTTTTTTTGGGTGGAATAAGCCCCTAATGTG AAAATAATATATAGTGATAAACCCCTGCCGTGAGGTTCCGTTTAATTTCTCATGATTCTGCAAACGACGCTGACGTAAAT TATATTTTGTGAAAATTATTCAATTAAAGAGGGTGCCACGTAAGTAAATTAGGGTTGAAAAAATAAAAACCCAAGTAAAA AACTCAAGTAAAATCCCCAAACGTACTTGTGTTTTTTACTTTGGATTTTCATTTTATTTTTATTTTTTGATCCCTCATTT ACTTACGTGGCACCCTCTTTAATTGAATAATTTTCACAAAATATAATACACGCCAACGCCGTTTACAGAATCATCATAAA TTAAACGGAACCTCACGGTAGGGGCTTATCACCATATATTATTTTCACATTAGGGGCTTATTCCACCCAAAAAAATTTGT AGGGGCCTTAACCAAAGCACCCCTATTTTAGAGGGACTTCCAACATATTTATTACCATAATTTAGTCCCTACTGTTTTGC TATTTTTGGTTTGGGTTCCTTGCTACAAAGAGCAAAAGGATTAAATTATGGTGATTTCTAAAAATTAGGGACTCCAACAA AAAGAAAATGTGTGGACCAAAACCCAAGGTTTCTATATTGTAGAGGTCAGATTTAAGCCGTGATTTTAATATGGTATTGT TAAGGTTTCATATAGATGTTGAAACATGCACTACTATTTTTTTCTTTCCTTGTTTGGTTGCTCAAGTCTACTACCCCCTC CATTCCAAAATTTATGTCGTTAATTGATATATAGTTTGACTGAAATACCCTTATTTAAAGTTGAGTTATATTAAAGAGAG AGAATGATAGTTATTGTGTAAGTAATTAGTGAGAATTGTGATGAAAATAGGAGGTGGTCGGTGAGAGATATAATATCAAA TGAGTGTATAAATGGATGAAAATAAGATAAATTGTCTTGAAATTCTAAAACAACATACATTTTGGAAATAGTTGATAAGT TAAAACAACATATATTTTGGAATGGAGGGTATAGATAATTATGCCTCAAACTCTAAGTTCTTTTTCTGATTGTCATTGTC TTTGATACATTATGATGATAGCTAGCAGTTTACAGTGGTGGAGACTGGTCTCTATTTGTTTAATTATTACATTCCATGTT CACAAAGGGAGCTCTGATGTTCTGTGTGCGTTAGTGAGGGTTTTGGCCGGTTTCGTGTATATACTTTTCTTTTTCTTAAT CCTGTTAATTATTTGTTATTGATTTGTGAGCAGTTGAAACTGAGAAATTCCGCGCTGAGCTTGCTGAAGTTCGGGCAGAG CTAGAACCTTGGGAAAAAGATTTGATTGAGCACAAGGGGAAACTTGAAGTTGCATGTACCGAGGCTAAGCTGTTAAATGA CAAGGTGATAATGACTTTAGTATTTTATGCACTCTTAATCAGTCTCGGCTTTAAGGAAGTGATTTAGGCTTTTGTCTTGA AAATTTTACGTATATTCAAGCAAATCACAGTAACTCCTTATATTATATGCTGTGTTAAGTATTTTTGGTAACTGTCGAAG GATATTTTCTTATAAGCTTAAGTAGCTACAATTTCTGGTAAGTTTTTATGCTATGAATAATTTCTGAGAAGTGAGAACAA AGAAAATTGAATGCGCAATTGTAAGTACCTTAATTTATTCTCACACCTTTTAATTATACTTCTCCTTTTAACTTATTTTG TGAATTTTAGTTTTCAGATTTTTAAGAGCTATTTTTTATTTGGAAACTCATGCTTTGTTTCTGGTTTTCTATGGAATGAT ATATGGCAAGCAAGCAGAAAGCATTGTTTCTCGCCAAGAAGATCTCTTGTATTTTCCTTTCTTGGGGCAAGTGGACTAAA GTGTTGACACTTTCATAATTCAACTCTTTTGGTCCACACTTTTTTTGGGTGTAGTTTTGCATTATCTCCTTAAATAAGAC ATTTTGGGATAAATCTTTGAATTTGGTGTTTCAAAGAGGTAGAATTTTCTTGCATTCTCTCTTAATTGAATTCATTATTT GATTGTGATGGTTTTTGATTTCTTGGAGGGATCACTGTCTATGCTACCAAATTGTTAATCCCTTCTGGTGGTGGATTAAA ATTTAGATCTCATTTCTGTTGTGAGATTCCTCAAATTTTGTGCCCACATACAATTTAATATTCTTGTTATGCATTTTTTT TGGATGTATGCATACTGCAAAGCCGGTCATAGAAGATATGTTAGATTGTTCCAGCTACCGTAGTTTACACATGCAAAAAA GCCAAACATAGGTTGAACTTAGCAAATGTAATATATAGAAAACTATTAACACAAACCTCAGTTTCTCTTTCACCAAAAAA TAAAAAGGACAATTTTCTCATGCTCAGGATTCATGGAACTTATTCTTTATAATGTTTAACATACACATGTAGAGCAGATT CCATTAGTATTTTCCAGTAGAAGGATGTTTGGTATTAGAAGGTGATTCTTGATTCTTCTTTTCAGCATGAAGGTGCACGT AAAGCTTTTGAAGATGCTCAAAAGCAGATGAAAAGTATATCAGAAACAATTAAATCAAAAACTGCTAGCATTTCTCAAAT TAAGAGTGATATTGAAAAGAGCAAACATGAAGCATCAGAAGCTCACCAAGTGGAAGAAGTGAGCATTTTTTACTTTTGAA TTCCATTTCTTGAACATTTTTGTAACACAGGCTTACGGTGATCTGATTTTTTTTTTGTTAAGGAATGTATAAAAGAACAA GATGCCTTGATTCCTCTCGAACAAAGTGCAAGGCAGAAGGTTGCAGAACTGAAGTCTGTTCTGGATTCTGAGAAGAGTCA GGGTTCAGTTCTAAAAGCAGTCTTGAAAGCCAAGGAAACCAAACAAATACAAGGAATATATGGTCGCATGGGTGATTTAG GTGCAATTGATTGTAAGGTTTTTTACTTGCAATCTTTTTGCTTCACAATGTTCTTTTTAAGTTTCTAAATTAGATTCCTT TCATGGCGTGCAAACTATTAGAAAACCTGGTTTTGCATGGCTCAGATTGTATCTAGTTTTAAAAATTTATGGTGGTGTAC TAAAATTTCAAAAACAACTATACCTTGTTTTTTGCAATCAAAGTGAAATGGGCTTGTTGAATTATTGGCTAAAGGCGAGG GTTTTCCTTCAACCTATTCCGTAATCATTCATATTTGGAACTTTAATTAAACTCAAGGAGGGGGAGTGATGGGTGTTACA ATATGGCAAAAGTATCTTAAAATATCTTACAGTAATTCTTGTGTTGAGAGGTGAGAGGTCGCGCATTGACTAGAGATTTG GCTAAGTTCGTTCTTATATAGGGTAGAATAATCCTCACCCTTGAGCTAGCTTTGGGGTAGAGTTAGGTCTAAACCTGTAT CCTAAGAGACCTGTTATGTGTCCCATGTTATCAGAAACACTTCTTCTAGTCTTGGTCACAAGAATATTATTTGATGGCCT TTATCCTAGCTATAAAGGTATATAGTTAACAGCGAGGTTATTGTACATTAGACATTTGTAATTCATGGAAAATGGGATCT GCTGTTTTTTTTTGCATATATTAGTAGTTCAACATGTTCCAAATTTTGTTGGTTTTTTGTTTTTGCTCTCAGAGTGATAT TACATTAGATTATGAACTATTTAATATCTTCTTTCTACTCTGGAACTTGGCAAATAGTGATTATATATCACTTGATGCTT TTATCATTGTACGTTATCAGACTATGCCACTATATTAACGAAATGAGATCTGATCATTGCAGCAAAATATGACATTGCAA TATCAACAGCATGTGCTGGGCTTGATTACATTGTGGTGGAAACAACAAATGCAGCACAAGCCTGTGTTGAGTTACTTCGC AGGGAGAACCTTGGTGTTGCTACTTTCATGATATTGGTATTCTTTGTTATATTATTTAACAAGTTTCTATCTTAGTTTTC TGTCCCCTTGGATTTACATTTGTTTAAACATTGCTGAATTCATTCCTTAGCTGCTATGCGCAAACTTTTGTTTTCGCACT TTAATTTCCAACTCTGCTTGACTCTCTGTTGTTATTCGTAATTCAGTATGATGCTACTCTACTTTAATGATTCTTTTTAC CTCAACCTGCTGATTACTTGATGTAGTATCAGATCTTCTATAATATGAAATCGTTCTTATAACTAGTTGGCCTTTTAAGT TCTAAACTAGTTGAAATTTAGGAACTAATGTAGATAGCAATTCCTTAATAGGTTTTAAGGTGTACTCCCAGGAGCTATTT AAATTCTTGTAGGGGACTGAAGGCAAGCAAGTTTCAGTTTATAAAATAATAATATGGATTTGGTTAAATACAATGTCCCA GCAATTAATTTTATAAACCGGTTATATCTTAGAAACTGAATCAAATTAATTATGAACTAGCAAGCTTGTTTTACGATGTA AAATGAACATTCATGGGTTGAGGAGGGACATGTTGGTTCAACATAGTCAATGATCTGGATTTATGTATTCTTGGCAGGGC CAAATACAAGTTGTTATTAGATACACAAAGTTACACTTTTAGGTGCATTGGTACTTGATGTAGTTTCAGATCTTCTATAA TATGAAATCGTTCTTGTCAATAGTTTGCCTTTAAGTTTTACACTAGTTGAATTTTAGAAATTAATGTAGATAGCAAAATT TTAAGAGGTTTTAAGGTGTACTCCCAGGAGCTTTTTAAATTATTGCAGGGGACGGAGGGCAAGGAAGTTTCAGTTTATAA AATAATAATATGGATTTGATTGAATACAATGTCCCAGCGATTAATTATCTGTTTTGTTTTTCTAATATTTTTGGTACACT GAGTCACTGATAATAAGTGATTTAAACTGAATTTGATAAATCTAATCAAGATAGCTTCTTTTTTCATAATTCAGGAGAAG CAAGTTCATCTCCTTCCAATGTTGGAAAAGAATGTAAGCACTCCAGAGGGGGTTCCCCGCCTTTTTGATTTAGTAAAGGT TCAAGATGAAAGAATGAAGCTTGCTTTCTTTGCAGCACTCAGAAACACAGTTGTTGCTAAAGACCTTGACCAGGTCAGTT CCACTTTCTTACTAGATAACTCTGTTCTGATCATTAATATACAGGACTAATCATAAAAAATTCAGATATGAAATCATCAT CATATCATGCTTTCAGAGTGTGGCAGATAGGCTAATCTTGTTATAGATTATTTGGAACTTTTTATGCTTTTTATATCATA AACTCCTTTGGATTGTTTAAGAAACAAAAGTGTGGGGCTCAACATACTCATTATTCACTTGAAATAATTATAAAATCCAT CACGAAATTTTTTGGAAAGTAATTTGCAACCCTTCATATCTGTGAAGGAAACAACTAACTGCCAATTTTTTCCACTCATA TAAATTTTAGGCAACACGCATAGCATATGGTGGAAACTATGAGTTTAGGCGAGTTGTTACTCTTGATGGTGCACTCTTTG AAAAATCTGGAACAATGAGTGGTGGTGGTAGTAAGCCTCGGGGTGGGAAGATAGGGACATCTATTCGAGCTGCAAGTGTG TCTGTAGAAGCTGTTACTAATGCTGAGAGGCAGTTGTCTGAAATGGCTGATAAATTGAATGCAATTCGCCAAAGAATCAT GGATGCTGTGCGGCGATATCAGGCCTCAGAAAAAACAGTCACGGCTTTGGAAATGGAGTTAGCTAAATGCCAGAAGGAGG TAATGCTTAGTTCTGAGTCCGAAAGATACTTTTCAGGGAATTGTTGGTACTGGGCTTTGATTTTCTTCCCTTCCTCTACA GGTTGACAGTTTGAATTCTCAGCATAGTTATATTGAAAAACAACTTGATTCCCTCAAAGCTGCGTCACAGCCAAGTGAGG ATGAGCTTGTCAGATTGAAAGGGCTTACAGAGATTATTACTGCCGAAGAAAGGGAGATTAAAACACTTACTGATGGATCT AAACAGCTGAAGGAAAAGGTTTGCTGTAACTTCCTTACCTTTGAATTCCTTTGAAAGTTGAGCGTTGATTGATAGGTCTT GCTTTTATTTATTTAACTCCAGTTAGCTCGACTTAACATTAACCATTTTCAGGCGTCTGATCTTCAAAGAAATATAGAAA ATGCTGGGGGTGAAAAATTAAAATCTCAGAAGTCAAAGGTCCAGAAAATTCAGTCTGTAAGCATCCTAATTTTGAGAAGA ACTTTTAATTCAATATGATGCTCTGTCTATTAATTGTTCACATTTACTAGGATATTGACAAGAACCACTCAGAGGTTAAC CGTCTCAAGGTCCTAATAGAGACAGGACAAAAGATGATGAAGAAGTTGACCAAGGGAATTGAGGAGTCAAAGAAGGAGAA AGAACGACTAGCTGAGGAGAAGGAAAAGTCAAAAGAAATCTTCAAAGAAATAGAACAGAAAGCATTTATTGTTCAAGAGA ACTATAAGAAAACACAAGAGGTTTTGTCCTCCTTTTGCATTTTTGGTTATGTAAAATTGCGCCTACGTAATAAAATGCAT AGTATAATATATCTTTTCAATGTATATATAGTTTGTTATACAGCATGGTGGTAGTTGTTGTATCGTCATGTGTTATTTAT TCTACTGTGCAGATGATTGACAAGCATAGGGATGTATTGGAGGAAGCTAAATCTGAACATGATAAGATGAAAAAAGTAGT TGAAGAATTGCGTGCATCTGAGGTACTTCTCATGTGTGTTAATTTTTCATTCTCTTGAAAGTTGGAGTTTTCTCATTGTA GTCCACATTTTGCAGGTTGATGCAGACTTTAAATTAAAAGACATGAAGAAAGCATACAAAGAATTGGAAATGAAAGGGAA AGGCTACAAGAAAAGACTAGACGAGTTGCAAACTGCTATTTGCAAGCATCTTGAACAGTATGTCATTTGATAATTGTTTG CGAATAGTGTTTATCATTTTGAGGTTCTTATGAGGTTGTGAATTTGATACAGAATTCAGGTAGATTTACTGGATGTTGAA AAGCTAAAGGCTACATTGGATGATGAGCATCTTCATGCTGCTTGTGACCTGAAAAGGGCTTGTGAAATGGTCACATTGCT TGAAGCACAACTGAAGGAGATGAATCCAAATCTTGATTCAATTTCAGAGTATGAGCTTTTCTAATTTGTTACCATGATTG TCTTTCCTTTTGATGTTGTGTAGGAAAACTCTTACTTTCTTATGATTATCAGGTATCGAAAGAAAGTTGCATTGTACAAT GAGCGAGTTGAAGAGCTTAATACAGTCACTCAGGAGCGGGATGATATAAAGAAGCAGTATGACGAATGGAGAAAGAAAAG GTATGCATATTATTTTTGTCAAGGCTCCTCTAAAGTGAACTTGTCTCTAAAGGAGGCGAGGTTGCATCCACTGTTAACTT AATTTAAAGTATATTGTAATCTTAATATATAAAATCCAAGGGCTAATTCACATTTACTCGCTATATAGACAAACTTGCTT TAGAGGAGGTTTTTCCTTTTGTTTGTATCATTAAATTTATTATATGATTTGCTTTAAAATAAAATATAAGATGAATATGT TATTTTCAGATTGGATGAGTTCATGGAAGGATTTAATGCCATATCATTGAAGTTAAAAGAAATGTACCAGGTTTGAGATT CTGCTCTATTTTTCTCTCTCTGTCTCTGTGTGTGTTCGTACTTCTCTCTTGACAAAGGCATCTGAAATTGTGCTTCACTT TGTAGTATTGTTTACTCGGCTTTTTACGTGTTATAGATTCAATAGTCTTTCTCATGACATTTAGACCAGTACGTTAGCAT GGTTCTTTTTATAAAATTGTGTTTTGTATTTCTGGATATAAAATGGTGCTGTGCCAAATAAATTTCAATTTTTAGGGGGG GGGGGGGGGTGACTCTAGTAGTGCAGATAGATGTGTAAATTTATGATGGCATAAATTCTTGTCATGATCCAAAAGCTTAA GCTGTTGGGGGAAGACACATGCATGATTTTATATCATATTTTTAACAAAACTATACATGTAGTTAATGGAATTTGATCAG AGATTTGGTTAGAATAAGTGAATAGAATAGTGTCAGAAGTTCCTCTCCAATTCTGGGTCAACAGACTATCTTGGCTTGAA GCGAAAAATAGTTGAGCACTCCTCACTCAGGAATTCAAGAACCTGAGCCCTCCTTCCAAAACTAACTACCACTCAAAATA GGATGCCTCATATTTGTCATAACTTGACTTTTGCTGTTTAGTTAGAGGCCTAGCCTATTATATCTGCGTTAGAAATGAAA ATGATATCTTATAATATCTTAGTTATTAAGGTTATTTAGATTATTCTTTAAATTGGTTTCTTATTTGTATTGATTTGTTT CCTTATTTAATTAGGGTTAGGAGTCTTAATTTGTTTTCTTATTTAACTAGAATTAGTAGTCTATCCATTACTATAAATGA GGGTAAGTTTTTTTCTTTTGTAAAATTACACCCAACATATTATGTTAATATTCCTGGTATTCATTTTCCTCTTTCTATCC TTAAAGAGTAAACCCTAAAATCTCTTCATGGTATCCGAGCCAATCTTATATTCAATGTTGGCCACCTATTTAAGTGTGGA GTTTAAGAATCGACTTGACCTGTGTTTGTGATATGAAAATTTAGTGTCGATTTGGCAAGCAGATATTTCAAGTGAAGTTG ACGACGTAAGTCTAGCTCTGCAGATATCTCATGGTGGGGATAAGGGCATTTTGTTAAATATAAAGTTTGTGATCTCCATG CTCCAATGAACCTCAGTAAAAATCATTAAGCACTTACTAACATGCGTAAATTATTTGAAACCAGCAAACTTTGGGTAAAG TATGCTGAAATTTGTGCACACTGAGCGTAAGATAATTTTTGCTTCATTTTTATTTTTTATTTTTTGTAATCATAGTTTAT TATTTATAGTGTTGGTGTCTTTTTATTTTTTTTTACTTGGTCGGTGTTGGAGTAAACTGTATTTCTTTTCCCTCTGTCTC TGTCTCTCCGGTCACACAAGCCAATCCCTAAAATTTCAGCCGTTATGTGGATGGTGCTGCATTGGGTGGTAGTGATCATT AACATGTATTGCCTCTTAACGCTTGCAGATGATTACACTCGGAGGTGATGCAGAGCTTGAGCTTGTGGATTCTTTGGATC CTTTCTCTGAGGGTGTTGTGTTCAGTGTCAGGCCACCAAAGAAAAGCTGGAAAAACATTGCTAATTTATCCGGGGGTGAA AAGGTCATTGTTTTTCTTTTGTTGGGTTCCATGCACATTGCAAATCATTTTGTATGAGCAAGCATTCTATTTTCTGGCTT CAACCTGTATGTGTGATGCTGAAATGGCCTTCAATATTTTCTTGACAACAATGAGCATAAAAAGTATAAAATGCCTTCAT GGACACTATGACCTTCTTCCCTGTTATTTATTATATAGTGATATTTTATAATTTATTTTGCAGACTCTTAGCTCATTAGC TCTTGTATTTGCTCTTCATCATTACAAGCCTACCCCGCTTTATGTAATGGATGAAATCGATGCTGCCCTGGGTAAGTCAA ATTATGATATTTGTAATTGCTATGTGGGTTTGCAATTCACTAAACTCCATTGGCGGCTATATTGTTTGGCAGACTTCAAG AATGTATCTATTGTTGGGCATTACGTGAAAGACAGGACCAAGGATGCTCAATTCATAATCATTAGGTACTTCAAAATTGC ATTTTCTTAGTAAATCTGTGCTTGGTCTGGTCTAATACTTACTGTGGTATGTTTTCTTCCTTGTGCAGCCTTAGGAACAA TATGTTTGAATTGGCTGATCGTCTTGTTGGTATTTATAAAACTGATAATTGCACGAAGAGCATCACTATCGATCCACGTA GCTTTGTCGTGTGCCAAAAAGCTGTTTGA

Download Genomic Sequence

CDS sequence (LotjaGi4g1v0139100.4) extracted from Lotus japonicus Gifu v1.2 CDS.

ATGGTGATGCGGAACTTCAAGTCCTACGCTGGTGAACAGCGCGTGGGTCCTTTCCATAAGAGTTTTTCGGCTGTGGTTGG ACCCAATGGGAGCGGGAAGAGTAACGTGATTGACGCAATGCTGTTTGTGTTCGGGAAGCGAGCGAAGCAGATGCGGCTTA ACAAAGTTTCGGAGCTTATCCACAATTCCACCAATCACCAGAATTTGGATAGTGCTGGGGTTTCTGTTCATTTTCAGGAG ATTGTCGATTTGGATGATGGAACATATGAGGCTGTTCCAGGAAGTGATTTTGTGATTACAAGGGTGGCTTTACGGGATAA CTCCTCTAAGTATTATATTAATGATCGTTCGAGTAACTTCACTGAAGTCACTAAGAAACTGAAAGGGAAAGGTGTTGACC TTGACAATAATAGGTTTCTAATCCTTCAGGGTGAAGTTGAGCAGATCTCACTTATGAAGCCAAAAGCTCAAGGACCACAT GATGAGGGTTTTCTAGAATATCTGGAGGATATCATTGGGACGAACAAATATGTAGAAAAAATTGATGAATCATTTAAACA GTTAGAGTCCCTGAATGAGAGAAGATCTGGGGTGGTACAAATGGTCAAGCTATCTGAGAAAGAAAGAGACAGCTTGGAGG CATGTATAACTGTGCTTGGTGTGAAGAATGAAGCAGAAGCCTACATGCTTAAAGAGTTGTCTCACTTGAAATGGCAGGAA AAAGCTGCAAAGTTAGCTCTTGATGATACAGGTGGAAAAATGGATGAGTTACAAGTGAATGTTGCTAGCGTAGAAGAAAA TCTCAAGGCAGAAAGGGATAAAATTCAAGAAAGTAAACAAGTTCTGAAGGAGCTAGAAACTAAGCACAGCAATTATATGA AAAGACAAGAGGAGCTAGATACTGATATGAGGAAGTGTAAAGAAGAATTCAAGGAGTTTGAGAGGCAGGATGTCAAGTAT CGGGAAGATTTTAAACACTTAAATCAGAAGATCAAGAAGCTCGAGGATAAAGTTGAAAAGGATTCATCAAAAATTGAAGC TCTTGTAAAAGAGGGTGAAGACTCAACTAATCTGATACCAAAACTTGAGAATAATATTCCAAAACTGCAAAAATTGTTGC TAGATGAGGAGAAGGTCTTAGAAGAAATCACAGAGAGTTCCAAAGTTGAAACTGAGAAATTCCGCGCTGAGCTTGCTGAA GTTCGGGCAGAGCTAGAACCTTGGGAAAAAGATTTGATTGAGCACAAGGGGAAACTTGAAGTTGCATGTACCGAGGCTAA GCTGTTAAATGACAAGCATGAAGGTGCACGTAAAGCTTTTGAAGATGCTCAAAAGCAGATGAAAAGTATATCAGAAACAA TTAAATCAAAAACTGCTAGCATTTCTCAAATTAAGAGTGATATTGAAAAGAGCAAACATGAAGCATCAGAAGCTCACCAA GTGGAAGAAGAATGTATAAAAGAACAAGATGCCTTGATTCCTCTCGAACAAAGTGCAAGGCAGAAGGTTGCAGAACTGAA GTCTGTTCTGGATTCTGAGAAGAGTCAGGGTTCAGTTCTAAAAGCAGTCTTGAAAGCCAAGGAAACCAAACAAATACAAG GAATATATGGTCGCATGGGTGATTTAGGTGCAATTGATTCAAAATATGACATTGCAATATCAACAGCATGTGCTGGGCTT GATTACATTGTGGTGGAAACAACAAATGCAGCACAAGCCTGTGTTGAGTTACTTCGCAGGGAGAACCTTGGTGTTGCTAC TTTCATGATATTGGAGAAGCAAGTTCATCTCCTTCCAATGTTGGAAAAGAATGTAAGCACTCCAGAGGGGGTTCCCCGCC TTTTTGATTTAGTAAAGGTTCAAGATGAAAGAATGAAGCTTGCTTTCTTTGCAGCACTCAGAAACACAGTTGTTGCTAAA GACCTTGACCAGGCAACACGCATAGCATATGGTGGAAACTATGAGTTTAGGCGAGTTGTTACTCTTGATGGTGCACTCTT TGAAAAATCTGGAACAATGAGTGGTGGTGGTAGTAAGCCTCGGGGTGGGAAGATAGGGACATCTATTCGAGCTGCAAGTG TGTCTGTAGAAGCTGTTACTAATGCTGAGAGGCAGTTGTCTGAAATGGCTGATAAATTGAATGCAATTCGCCAAAGAATC ATGGATGCTGTGCGGCGATATCAGGCCTCAGAAAAAACAGTCACGGCTTTGGAAATGGAGTTAGCTAAATGCCAGAAGGA GGTTGACAGTTTGAATTCTCAGCATAGTTATATTGAAAAACAACTTGATTCCCTCAAAGCTGCGTCACAGCCAAGTGAGG ATGAGCTTGTCAGATTGAAAGGGCTTACAGAGATTATTACTGCCGAAGAAAGGGAGATTAAAACACTTACTGATGGATCT AAACAGCTGAAGGAAAAGGCGTCTGATCTTCAAAGAAATATAGAAAATGCTGGGGGTGAAAAATTAAAATCTCAGAAGTC AAAGGTCCAGAAAATTCAGTCTGATATTGACAAGAACCACTCAGAGGTTAACCGTCTCAAGGTCCTAATAGAGACAGGAC AAAAGATGATGAAGAAGTTGACCAAGGGAATTGAGGAGTCAAAGAAGGAGAAAGAACGACTAGCTGAGGAGAAGGAAAAG TCAAAAGAAATCTTCAAAGAAATAGAACAGAAAGCATTTATTGTTCAAGAGAACTATAAGAAAACACAAGAGATGATTGA CAAGCATAGGGATGTATTGGAGGAAGCTAAATCTGAACATGATAAGATGAAAAAAGTAGTTGAAGAATTGCGTGCATCTG AGGTTGATGCAGACTTTAAATTAAAAGACATGAAGAAAGCATACAAAGAATTGGAAATGAAAGGGAAAGGCTACAAGAAA AGACTAGACGAGTTGCAAACTGCTATTTGCAAGCATCTTGAACAAATTCAGGTAGATTTACTGGATGTTGAAAAGCTAAA GGCTACATTGGATGATGAGCATCTTCATGCTGCTTGTGACCTGAAAAGGGCTTGTGAAATGGTCACATTGCTTGAAGCAC AACTGAAGGAGATGAATCCAAATCTTGATTCAATTTCAGAGTATCGAAAGAAAGTTGCATTGTACAATGAGCGAGTTGAA GAGCTTAATACAGTCACTCAGGAGCGGGATGATATAAAGAAGCAGTATGACGAATGGAGAAAGAAAAGATTGGATGAGTT CATGGAAGGATTTAATGCCATATCATTGAAGTTAAAAGAAATGTACCAGATGATTACACTCGGAGGTGATGCAGAGCTTG AGCTTGTGGATTCTTTGGATCCTTTCTCTGAGGGTGTTGTGTTCAGTGTCAGGCCACCAAAGAAAAGCTGGAAAAACATT GCTAATTTATCCGGGGGTGAAAAGACTCTTAGCTCATTAGCTCTTGTATTTGCTCTTCATCATTACAAGCCTACCCCGCT TTATGTAATGGATGAAATCGATGCTGCCCTGGACTTCAAGAATGTATCTATTGTTGGGCATTACGTGAAAGACAGGACCA AGGATGCTCAATTCATAATCATTAGCCTTAGGAACAATATGTTTGAATTGGCTGATCGTCTTGTTGGTATTTATAAAACT GATAATTGCACGAAGAGCATCACTATCGATCCACGTAGCTTTGTCGTGTGCCAAAAAGCTGTTTGA

Download CDS Sequence

Protein sequence (LotjaGi4g1v0139100.4) extracted from Lotus japonicus Gifu v1.2 Proteins.

MVMRNFKSYAGEQRVGPFHKSFSAVVGPNGSGKSNVIDAMLFVFGKRAKQMRLNKVSELIHNSTNHQNLDSAGVSVHFQE IVDLDDGTYEAVPGSDFVITRVALRDNSSKYYINDRSSNFTEVTKKLKGKGVDLDNNRFLILQGEVEQISLMKPKAQGPH DEGFLEYLEDIIGTNKYVEKIDESFKQLESLNERRSGVVQMVKLSEKERDSLEACITVLGVKNEAEAYMLKELSHLKWQE KAAKLALDDTGGKMDELQVNVASVEENLKAERDKIQESKQVLKELETKHSNYMKRQEELDTDMRKCKEEFKEFERQDVKY REDFKHLNQKIKKLEDKVEKDSSKIEALVKEGEDSTNLIPKLENNIPKLQKLLLDEEKVLEEITESSKVETEKFRAELAE VRAELEPWEKDLIEHKGKLEVACTEAKLLNDKHEGARKAFEDAQKQMKSISETIKSKTASISQIKSDIEKSKHEASEAHQ VEEECIKEQDALIPLEQSARQKVAELKSVLDSEKSQGSVLKAVLKAKETKQIQGIYGRMGDLGAIDSKYDIAISTACAGL DYIVVETTNAAQACVELLRRENLGVATFMILEKQVHLLPMLEKNVSTPEGVPRLFDLVKVQDERMKLAFFAALRNTVVAK DLDQATRIAYGGNYEFRRVVTLDGALFEKSGTMSGGGSKPRGGKIGTSIRAASVSVEAVTNAERQLSEMADKLNAIRQRI MDAVRRYQASEKTVTALEMELAKCQKEVDSLNSQHSYIEKQLDSLKAASQPSEDELVRLKGLTEIITAEEREIKTLTDGS KQLKEKASDLQRNIENAGGEKLKSQKSKVQKIQSDIDKNHSEVNRLKVLIETGQKMMKKLTKGIEESKKEKERLAEEKEK SKEIFKEIEQKAFIVQENYKKTQEMIDKHRDVLEEAKSEHDKMKKVVEELRASEVDADFKLKDMKKAYKELEMKGKGYKK RLDELQTAICKHLEQIQVDLLDVEKLKATLDDEHLHAACDLKRACEMVTLLEAQLKEMNPNLDSISEYRKKVALYNERVE ELNTVTQERDDIKKQYDEWRKKRLDEFMEGFNAISLKLKEMYQMITLGGDAELELVDSLDPFSEGVVFSVRPPKKSWKNI ANLSGGEKTLSSLALVFALHHYKPTPLYVMDEIDAALDFKNVSIVGHYVKDRTKDAQFIIISLRNNMFELADRLVGIYKT DNCTKSITIDPRSFVVCQKAV

Download Protein Sequence

Domain prediction

Data for domain prediction are obtained with InterProScan, and merged with InterPro data obtained from the EB-eye REST service.

Prediction algorithm	Identifier	Start	End	Length	E-value	InterPro ID
CDD	cd03274 View details on cd03274 Search for proteins/transripts with this domain View external data on cd03274	1	156	156	1.64863E-61	IPR041738 Show description in modal box View details on IPR041738 Search for proteins/transripts with this domain View on EBI InterPro Service
PANTHER	PTHR43939:SF1 View details on PTHR43939:SF1 Search for proteins/transripts with this domain View external data on PTHR43939:SF1	1	1219	1219	0.0	–
PANTHER	PTHR43939 View details on PTHR43939 Search for proteins/transripts with this domain View external data on PTHR43939	1	1219	1219	0.0	–
Gene3D	G3DSA:3.40.50.300 View details on G3DSA:3.40.50.300 Search for proteins/transripts with this domain View external data on G3DSA:3.40.50.300	1	186	186	5.7E-43	–
PIRSF	PIRSF005719 View details on PIRSF005719 Search for proteins/transripts with this domain View external data on PIRSF005719	1	1219	1219	2.1E-302	IPR024704 Show description in modal box View details on IPR024704 Search for proteins/transripts with this domain View on EBI InterPro Service
Pfam	PF02463 View details on PF02463 Search for proteins/transripts with this domain View external data on PF02463	2	1205	1204	6.2E-65	IPR003395 Show description in modal box View details on IPR003395 Search for proteins/transripts with this domain View on EBI InterPro Service
SUPERFAMILY	SSF52540 View details on SSF52540 Search for proteins/transripts with this domain View external data on SSF52540	3	1211	1209	3.38E-42	IPR027417 Show description in modal box View details on IPR027417 Search for proteins/transripts with this domain View on EBI InterPro Service
Coils	Coil View details on Coil Search for proteins/transripts with this domain	247	351	105	-	–
Coils	Coil View details on Coil Search for proteins/transripts with this domain	426	446	21	-	–
Coils	Coil View details on Coil Search for proteins/transripts with this domain	496	516	21	-	–
SUPERFAMILY	SSF75553 View details on SSF75553 Search for proteins/transripts with this domain View external data on SSF75553	498	686	189	4.32E-45	IPR036277 Show description in modal box View details on IPR036277 Search for proteins/transripts with this domain View on EBI InterPro Service
Gene3D	G3DSA:1.20.1060.20 View details on G3DSA:1.20.1060.20 Search for proteins/transripts with this domain View external data on G3DSA:1.20.1060.20	515	682	168	2.0E-36	–
SMART	SM00968 View details on SM00968 Search for proteins/transripts with this domain View external data on SM00968	533	649	117	4.5E-31	IPR010935 Show description in modal box View details on IPR010935 Search for proteins/transripts with this domain View on EBI InterPro Service
Pfam	PF06470 View details on PF06470 Search for proteins/transripts with this domain View external data on PF06470	533	649	117	1.1E-20	IPR010935 Show description in modal box View details on IPR010935 Search for proteins/transripts with this domain View on EBI InterPro Service
Gene3D	G3DSA:3.30.70.1620 View details on G3DSA:3.30.70.1620 Search for proteins/transripts with this domain View external data on G3DSA:3.30.70.1620	592	679	88	2.0E-36	–
Coils	Coil View details on Coil Search for proteins/transripts with this domain	699	754	56	-	–
Coils	Coil View details on Coil Search for proteins/transripts with this domain	786	820	35	-	–
MobiDBLite	mobidb-lite View details on mobidb-lite Search for proteins/transripts with this domain	816	836	21	-	–
MobiDBLite	mobidb-lite View details on mobidb-lite Search for proteins/transripts with this domain	819	836	18	-	–
Coils	Coil View details on Coil Search for proteins/transripts with this domain	857	891	35	-	–
Coils	Coil View details on Coil Search for proteins/transripts with this domain	899	933	35	-	–
Coils	Coil View details on Coil Search for proteins/transripts with this domain	941	968	28	-	–
Coils	Coil View details on Coil Search for proteins/transripts with this domain	1025	1062	38	-	–
Gene3D	G3DSA:3.40.50.300 View details on G3DSA:3.40.50.300 Search for proteins/transripts with this domain View external data on G3DSA:3.40.50.300	1060	1219	160	1.5E-48	–
CDD	cd03274 View details on cd03274 Search for proteins/transripts with this domain View external data on cd03274	1113	1207	95	1.41682E-69	IPR041738 Show description in modal box View details on IPR041738 Search for proteins/transripts with this domain View on EBI InterPro Service
Coils	Coil View details on Coil Search for proteins/transripts with this domain	1221	1221	1	-	–

Gene function (GO predictions)

GO predictions are based solely on the InterPro-to-GO mappings published by EMBL-EBI, which are in turn based on the mapping of predicted domains to the InterPro dataset. The InterPro-to-GO mapping was last updated on April 27, 2020, while the GO metadata was last updated on April 27, 2020.

GO term	Namespace	Name	Definition	Relationships
GO:0005515 View details of GO:0005515 AmiGO InterPro QuickGO	Molecular function	Protein binding	Interacting selectively and non-covalently with any protein or protein complex (a complex of two or more proteins that may include other nonprotein molecules).	Subterm of View details of GO:0005488
GO:0005524 View details of GO:0005524 AmiGO InterPro QuickGO	Molecular function	ATP binding	Interacting selectively and non-covalently with ATP, adenosine 5'-triphosphate, a universally important coenzyme and enzyme regulator.	Subterm of View details of GO:0008144 View details of GO:0032559 View details of GO:0035639
GO:0005694 View details of GO:0005694 AmiGO InterPro QuickGO	Cellular component	Chromosome	A structure composed of a very long molecule of DNA and associated proteins (e.g. histones) that carries hereditary information.	Subterm of View details of GO:0043232
GO:0051276 View details of GO:0051276 AmiGO InterPro QuickGO	Biological process	Chromosome organization	A process that is carried out at the cellular level that results in the assembly, arrangement of constituent parts, or disassembly of chromosomes, structures composed of a very long molecule of DNA and associated proteins that carries hereditary information. This term covers covalent modifications at the molecular level as well as spatial relationships among the major components of a chromosome.	Subterm of View details of GO:0006996

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Expression data

Expression pattern

Expression pattern of LotjaGi4g1v0139100.4, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.

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LotjaGi4g1v0139100.4